MGT 433: Prerequisite Module
< Video-based Review of Module 5 Materials >
Overview
When planning for potential disease outbreaks in rural communities that operate on
limited fiscal budgets, it is essential that emergency planners not only assess the
resources that would be used by various personnel in order to effectively detect,
respond to, and contain a contagious disease but also survey existing resources in their
respective jurisdictions. This module is delivered as a web-based prerequisite, offered
also as a take-home reference.
Terminal Learning Objectives (TLO)
Upon completion of this module participants will acquire a broad understanding of the
various types of personnel, durable, and consumable resources used to control the
spread of communicable diseases in rural communities. This module provides examples
of resources identified in a sample communicable disease response plan and induces
course participants to determine the types of resources their respective jurisdictions
need in order to effectively implement isolation and quarantine.
Enabling Learning Objectives (ELO)
5-1. Describe resource challenges rural communities face when enacting isolation and
quarantine measures.
5-2. Explain the advantages of typing resources according to NIMS guidance.
5-3. Explain how the Emergency Management Assistance Compact offers assistance
during governor-declared states of emergency.
5-4. Explain how the Strategic National Stockpile is activated and list the supplies
available.
5-5. Define syndromic surveillance and list available disease surveillance tools.
5-6. Identify the exposure risk level for various occupations.
5-7. List resources used to implement standard precautions as a means of preventing
direct contact with body fluids, secretions, excretions, non-intact skin, and mucus
membranes.
Practical Exercise Statement
As a module delivered as a web-based prerequisite, participants will exercise
knowledge by answering discussion and review questions throughout the module.
Assessment Strategy
Participant knowledge is assessed during the pre- and post- tests taken during course
delivery.
Reference List
Centers for Disease Control and Prevention. (n.d.). Preparedness for all
hazards. Retrieved from: http://www.bt.cdc.gov/hazards-all.asp
Centers for Disease Control and Prevention. (2012). Strategic national stockpile.
Retrieved from: http://www.bt.cdc.gov/stockpile/
Centers for Disease Control and Prevention. (n.d.). U.S. Quarantine Stations.
Retrieved from: http://www.cdc.gov/quarantine/pdfs/us-quarantine-stations.pdf
Environmental Health Officer Professional Advisory Committee. (n.d.). Part 2: Public
health guidance for state and
local partners. Retrieved
from:http://www.ehopac.org/resources/ehopac_dvd/Docs/Additional_Resources/par...
Federal Emergency Management Agency. (n.d.) Emergency management assistance
compact (EMAC) Retrieved
from:http://www.fema.gov/pdf/emergency/nrf/EMACoverviewForNRF.pdf
Federal Emergency Management Agency. (n.d.). Resource management. Retrieved
from: http://www.fema.gov/resource-management
Federal Emergency Management Agency. (2011). National Disaster Recovery
Framework: Strengthening Disaster Recovery for the Nation.
Federal Emergency Management Agency. (2011). National Incident Management
System. Retrieved from: www.fema.gov/pdf/.../nims/nims_cred_guidelines_report.pdf
Lemon, S.M., Hamburg, M.A.,Sparling, P.F., Choffnes, E.R., and Mack, A. (2007).
Global Infectious Disease Surveillance and Detection:Assessing the Challenges --
Finding Solutions, Workshop Summary. Retrieved
from:http://www.nap.edu/openbook.php?record_id=11996&page=1
National Association of County & City Health Officials. (2005). The local health
department workforce: Findings from
the 2005 national profile of local health departments study. Retrieved
from: http://www.naccho.org/topics/infrastructure/profile/upload/LHD_Workforce-
Final.pdf
Occupational Safety and Health Administration. (2007). Guidance on preparing
workplaces for an influenza pandemic. Retrieved
from:http://www.osha.gov/Publications/influenza_pandemic.html
MGT 433: Rural I&Q Resource Challenges
Rural public health agencies often face the following challenges in responding to any
health emergency, including emergencies requiring isolation and/or qurantine.
Smaller workforces with fewer or no mental health providers, public health nurses or
environmental scientists
Lack of hazardous materials handling services
Lack of access to technology like internet or email
Inadequate capacity related to staffing and facility shortfalls will disproportionately
affect hospital emergency departments. Of all hospital departments, emergency rooms
are most likely to bear the brunt of a surge in patients. Also, rural EMS systems
experience major challenges in day-to-day provision of emergency medical care by
increasingly becoming a public health safety net for primary care. This often results in
overextended and underfunded EMS systems even without a disaster taking place.
A large scale infectious disease emergency could stretch limited rural EMS resources
and infrastructure far beyond their capacity, necessitating mutual aid and effective
coordination with federal, regional and state assets for an effective response. Rural
EMS relies on a largely volunteer work force to respond to emergencies (National
Association of County and City Health Officials [NACCHO], 2005).
Special efforts should be made to address planning issues in rural communities and
other areas where emergency rooms and other resources for urgent care and
emergency treatment are lacking. Without community-wide planning, a surge of patients
could force the closure of local outpatient healthcare clinics needed for isolation
facilities. Planning partners may include healthcare providers at outpatient clinics,
federally qualified health centers (FQHCs), IHS and tribal health care facilities, and
other healthcare safety net providers that deliver care to low-income and other
vulnerable populations. In some parts of the country, FQHCs and rural health clinics
may need to rely on volunteers to provide and administer vaccines or other assistance
(Environmental Health Officer Professional Advisory Committee [EHOPAC], n.d.).
Review
Which of the following statements is NOT true?
A. Smaller tax bases in rural communities often means small budgets.
B. Rural areas often lack mental health providers.
C. Rural EMS relies on a largely volunteer workforce.
D. Rural communities face the same challenges as their urban counterparts, just on a
smaller scale.
MGT 433: NIMS Typed Resources
I&Q response activities require carefully managed resources (personnel, teams,
facilities, equipment and/or supplies) to meet incident needs. Often lacking in rural
communities, resources can be typed according to NIMS guidance, both to facilitate
response and to identify resource gaps in advance.
Typing should be an ongoing process, before, during, and after an I&Q response, as
illustrated in the above figure (FEMA, 2011).
As noted in NIMS, type refers to the level of resource capability. Typing (categorizing,
by capability, the resources requested, deployed, and used in incidents) provides
managers with additional information to help select and use resources that are likely
needed in response. The type assigned to a resource or a component is based on a
minimum level of capability described by the identified measure(s) for that resource.
This provision requires the identification of specific positions and job titles of responding
personnel. Typing requires development of standards for qualifying for these positions
and job titles (FEMA, 2011). An example using the position of medical supply
coordinator is located in Appendix A. Appendix B holds tips for typing resources.
NIMS Incident Resource Inventory System (IRIS)
FEMA’s National Preparedness Directorate (NPD) provides a no-cost resource
inventory tool called the Incident Resource Inventory System (IRIS). IRIS allows
response officials to enter typed and non-typed resources into a database and to
search/identify specific resources for incident operations and mutual aid purposes. IRIS
features the capability for users to inventory resources and share resource information
with other agencies.
Users are also able to define non-typed resources and select specific resources for
mutual aid purposes based upon mission requirements, the capability and availability of
resources and desired response times (FEMA, n.d.).
The Emergency Management Assistance Compact (EMAC)
For low-resource rural communities seeking to enact large-scale I&Q measures, the
Emergency Management Assistance Compact (EMAC) can be a very important aid to
response. EMAC is an interstate mutual aid system agreed to through legislation by all
50 States, the District of Columbia, Puerto Rico, Guam, and the U.S. Virgin Islands.
EMAC acts as a complement to the federal disaster response system, used either in
lieu of federal assistance or in conjunction with federal assistance. EMAC also provides
a way to mitigate resource deficiencies by ensuring maximum use of all available
resources within member states’ inventories (FEMA, n.d.).
Requests for EMAC assistance must be channeled through the state emergency
management agency, according to the following basic procedure.
The appropriate public health or medical entity should immediately contact the
state EMA with a request for EMAC assistance.
The state EMA will send the resource request to potential assisting state EMAs
and will receive offers of assistance.
An EMAC request checklist is provided in Appendix C.
Mutual Aid - NIMS details mutual aid agreements and memorandums of
understanding, both of which are needed between government agencies, the private
sector and nongovernmental organizations like faith-based and nonprofit organizations
to facilitate timely delivery of assistance. A signed agreement does not obligate the
provision or receipt of aid, but rather provides a tool for use should the incident dictate a
need.
Healthcare professionals, public health and law enforcement personnel must
understand each other’s work, standards, and culture in order to join forces and be
effective in a joint response. Liaison personnel are needed who have some degree of
cross-training in both public health’s role and methods of investigation involving
diseases, and in law enforcement’s role and methods of criminal investigations.
Mission Packages - Another way to expedite mutual aid is to create mission packages,
which are developed by resource owners to “pre-package” resources. The mission
package identifies the potential emergency response or recovery mission, resource
type, limiting factors, time frames, location, equipment, logistical needs and estimated
cost. Frequent training and exercises are critical to maintain readiness of the mission
package.
CDC Resources
In addition to on-site guidance at a health emergency, the CDC offers a wealth of
resources for local communities to prepare for a public health emergency. Much of the
CDC’s material deals with pandemic influenza, considered the most likely threat, but it
can be adapted for incidents with other communicable diseases, especially those
spread by coughing, sneezing, etc. There are many materials available through CDC
websites. A short list is provided in Appendix E. They are divided into three categories.
Guides
Tools
Communication and Education Materials
The Strategic National Stockpile (SNS)
The Strategic National Stockpile (SNS) (formerly the National Pharmaceutical Stockpile)
is a national repository of critical medical supplies designed to supplement and resupply
state and local public health agencies in the event of a national emergency anywhere
and at any time within the United States or its territories (CDC, 2012).
The SNS program is managed by the CDC and is carried out in conjunction with state
and local communities who have responsibility for developing their own local plans for
the receipt and distribution of SNS supplies. SNS distributes medical supplies and
provides technical assistance to states in their planning efforts related to the receipt and
distribution of SNS assets. SNS only distributes medical supplies—it does not operate
mass casualty centers or clinics.
The SNS contains multiple caches of medical supplies stored in warehouses in different
regions across the country. These caches include:
Antibiotics.
Chemical antidotes.
Antitoxins.
Life-support medications.
Intravenous (IV) administration.
Airway maintenance supplies.
Medical/surgical items.
SNS Activation
The affected state’s governor’s office requests SNS materials from HHS or CDC.
HHS assesses the situation and determines prompt and appropriate action. Upon
federal approval, supplies are sent in “12-hour Push Packages,” which contain a broad
range of products that may be needed in the early hours of an emergency and are
ready to be loaded on trucks or aircrafts.
These supplies go directly to predetermined sites, depending on the situation and the
plans made by the affected community. Additional supplies through Vendor Managed
Inventory and Stockpile Managed Inventory will be shipped to arrive within 24–36 hours.
These shipments can be tailored to provide pharmaceuticals, supplies, and/or products
specific to the suspected or confirmed agent(s).
Local and state officials are responsible for the distribution of SNS supplies once they
arrive at agreed upon receiving sites. While SNS supplies are being transported, the
SNS program will deploy its Technical Advisory Response Unit to coordinate with state
and local officials so that SNS supplies can be efficiently received and distributed upon
arrival at the site.
Review
Read the situations described below and decide whether to procure the needed
resources through NIMS IRIS, EMAC, or Strategic National Stockpile.
1. Due to the scale of the incident and media interest, you need a communications
truck. As of now, this is the only thing you lack.
2. Local pharmacies are reporting shortages of antibiotics and steroid inhalers.
3. An infectious disease outbreak has resulted in 50 percent of your emergency
response staff not reporting to work, including your epidemiologist. The local hospital is
overwhelmed and overcrowded. In addition, vital equipment such as ambulances and
machines for breathing treatments are in short supply.
MGT 433: Detection and Surveillance Resources
Early detection is essential to the control of infectious diseases, whether naturally
occurring or intentionally introduced. Containing the spread of these diseases requires
active surveillance for signs of an outbreak, rapid recognition, and diagnosis of cause
(Lemon, Hamburg, Sparling, Choffnes, and Mack, 2007).
In the United States, healthcare providers and others report cases of “notifiable”
infectious disease to health departments; health department officials verify disease
reports, monitor disease incidence, identify possible outbreaks, and forward their
findings to the CDC. The CDC and other federal agencies gather and analyze
information for disease surveillance. This information is available through various
channels, some of which are discussed in this module.
Syndromic Surveillance
Syndromic surveillance—the real time monitoring of nonspecific, prediagnostic
indicators for disease outbreaks—has been widely adopted by cities, states, and the
Federal Government as a means to provide early warning of infectious disease
outbreaks.
Several syndromic surveillance systems are currently operational. The Real Time
Outbreak and Disease Surveillance System (RODS) is used by several states to gather
data on the symptoms of emergency room patients. The RODS laboratory at the
University of Pittsburgh also created the National Retail Data Monitor (NRDM) to
examine sales of over-the-counter healthcare products.
Many infectious disease threats manifest as syndromes with nonspecific “influenza-like
symptoms.” In the case of a rapidly spreading disease, laboratory diagnosis may be
impossible. Under these circumstances, syndromic surveillance systems can alert
public health authorities to an outbreak before it is revealed in reports from healthcare
providers.
When people first develop symptoms following an exposure to an emerging infectious
disease, they may be much more likely to treat themselves and stay home from work or
school rather than seek care from a healthcare provider. Syndromic surveillance
systems monitor existing descriptive data for clusters of these behaviors, including:
School and work absenteeism.
Sales of over-the-counter medications.
Illness-related 911 calls.
Emergency room admissions.
In addition to its potential to increase response speed, syndromic surveillance costs far
less to implement than traditional, labor-intensive approaches to disease surveillance.
Also, in remote areas, where clinicians may be in short supply, syndromic surveillance
offers a promising model for disease detection.
Other Surveillance Tools
There are many surveillance networks and tools available for monitoring the spread of
disease, developed at both the private and government levels, available via email list,
website, or software purchase. These tools harness the power of disease surveillance
around the world and help give a real-time view of disease transmission patterns. Some
of these tools include the following.
ProMED Mail (PMM)—a free, nonprofit, noncommercial, moderated e-mail list
HealthMap—a freely available, web-based surveillance network
Global Outbreak Alert and Response Network (GOARN)—a surveillance network
established by the World Health Organization
Global Avian Influenza Network for Surveillance (GAINS)—a bird-disease specific
surveillance network developed jointly by the U.S. Department of Agriculture (USDA),
the U.S. Agency for International Development (USAID), and the Food and Agriculture
Organization of the United Nations (FAO)
BioSense 2.0—a program of the CDC that tracks health problems as they evolve.
Geographic Information Systems (GIS)— a technological tool, from various proprietary
vendors, for comprehending geography and making intelligent decisions. Health
professionals use GIS technology to:
Discover geographic origins of symptomatic populations.
Map disease spread.
Locate laboratory specimen and medical supplies.
Inventory hospital bed availability.
Discover testing facilities proximity.
Map medical personnel distribution
Identify specific locations of vulnerable at-risk populations.
Identify congregate groups targeted for preventive measures.
Create maps to help organizations establish field clinics and locate medical
supplies.
Provide information relevant for community leadership planning and response.
A more extensive explanation of available surveillance tools can be found in Appendix
5-F.
Review
Which of the following is NOT a pre-diagnostic indicator of disease outbreak?
A. A spike in emergency room admissions
B. A spike in over-the-counter cold medications
C. High rate of school absenteeism
D. A spike in vaccinations
MGT 433: Workplace Exposure Protection Resources
For most employers, protecting their employees during an epidemic depends on
emphasizing proper hygiene (cleaning hands and decontaminating surfaces) and
practicing social distancing. Social distancing means reducing the frequency, proximity,
and duration of contact between people (both employees and customers) to reduce the
chances of spreading an infectious disease from person-to-person (Occupational Safety
and Health Administration, 2007).
It is important to note that in addition to occupational exposure risks, employees will
also have non-occupational exposure risks. These non-occupational exposure risks
could include commuting to and from work on public transportation (e.g., bus or train) or
other community exposures (e.g. shopping). By addressing nonoccupational exposure
risks, employers and employees can minimize the chances of an employee bringing
illness into the workplace.
To help employers determine appropriate work practices and precautions, the
Occupational Safety and Health (OSHA) has divided workplaces and work operations
into four risk zones, according to the likelihood of employees’ occupational exposure.
The pyramid on the following page represents how the risk will likely be distributed for
the vast majority of American workplaces. Responders in an I&Q emergency, however,
face much higher risk than in typical workplaces.
Very High Exposure Risk
Healthcare employees such as doctors, nurses, paramedics, or dentists performing
certain procedures on known or suspected infected patients face a very high exposure
risk. For example, procedures such as cough induction, tracheal intubations,
bronchoscopies, or respiratory tract specimen collection carry a very high risk of
exposure.
High Exposure Risk
Healthcare delivery and support staff, such as doctors, nurses, and other hospital staff
who must enter patients’ rooms, emergency medical technician staff transporting
patients, or staff performing autopsies on known or suspected infected patients carry a
high exposure risk.
Medium Exposure Risk
Employees frequently in contact with the general population, such as at schools, high
population density work environments, and some high volume retail, carry a medium
exposure risk.
Lower Exposure Risk (Caution)
Employees who have minimal occupational contact with the general public and other
employees (for example, office employees) carry a lower exposure risk.
Standard Precautions
Standard Precautions prevent direct contact with body fluids (including blood),
secretions, excretions, nonintact skin (including rashes), and mucous membranes.
These standard precautions are listed below.
Handwashing. Wash with plain or antimicrobial-containing soaps after touching blood,
body fluids, excretions, secretions, or items contaminated with such body fluids,
whether or not gloves are worn. Wash hands immediately after gloves are removed,
and between contact with other victims/patients.
Gloves. Wear clean, non-sterile gloves when touching blood, body fluids, excretions,
secretions, or items contaminated with such body fluids. Put on clean gloves just before
touching mucous membranes and nonintact skin. Change gloves between tasks.
Masks/Eye Protection or Face Shields. Wear a mask and eye protection to protect
the mucous membranes of the eyes, nose, and mouth while performing tasks that may
cause splashes of blood, body fluids, excretions, or secretions.
Gowns. Wear a gown to protect skin and prevent soiling of clothing during activities that
are likely to generate splashes or sprays of blood, body fluids, excretions, or secretions.
Gowns and gown materials suitable for the task and amount of body fluid likely to be
encountered. Remove soiled gowns promptly.
Personal Protective Equipment (PPE) Considerations
Protocols for contact isolation will include the use of personal protective equipment
(PPE), or specialized clothing or equipment worn by health workers and personnel
involved in disease control activities. It is an integral part of routine infection control
practice, and it is an important component of prevention and control activities.
Compliance with the use of PPE and recommended infection control precautions is
critical to prevent the transmission of the pathogens.
Higher levels of PPE (including respiratory equipment) may be required if the illnesses
are associated with an agent that is the cause of a contagious disease, or if
decontamination is required both at an incident scene and at the hospital for patients
who are known or suspected to be contaminated.
Healthcare professionals will determine which PPE items must be worn when dealing
with patients in contact isolation. A sign showing which PPE is required or instructions
to see the nurse before entering the patient’s room should be used to notify visitors and
staff that special procedures are in effect. All hospital staff will be trained in SOP. Staff
should demonstrate to any visitors, if allowed, how to put on and use the PPE properly.
Personal Protective Equipment (PPE) Considerations – Masks and Respirators
Some masks are approved by the FDA for their fluid-resistant properties, while other
procedural masks are not. These disposable surgical or procedural masks can be used
in an isolation and quarantine situation for a variety of reasons. OSHA provides some
common uses of surgical masks, along with considerations when using them.
Per OSHA guidelines, surgical masks may be used for the following reasons:
In some isolation and quarantine settings, respirators are required. It is important that
all respirators are National Institute for Occupational Safety and Health- (NIOSH-)
certified, fit-tested N-95 respirators. The table in Appendix 5-G lists advantages and
disadvantages of various kinds of respirators and facemasks (OSHA, 2007).
Appendix H shows stockpiling estimates for respirators and facemasks.
Review
(Answers beginning in Appendix B)
Choosing from the list below, match the occupation with the appropriate level of risk on
the occupational risk pyramid.
A. Mortician
B. Dental hygienist
C. Warehouse manager
D. Convenience store clerk
What are the standard precautions employees can take to prevent becoming ill from an
infectious disease?
MGT 433: Module Summary and Review
Module Summary
You should now be able to:
Describe resource challenges rural communities face when enacting isolation
and quarantine measures.
Explain the advantages of typing resources according to NIMS guidance.
Explain how the Emergency Management Assistance Compact offers assistance
during governor-declared states of emergency.
Explain how the Strategic National Stockpile is activated and list the supplies
available.
Define syndromic surveillance and list available disease surveillance tools.
Identify the exposure risk level for various occupations.
List resources used to implement standard precautions as a means of preventing
direct contact with body fluids, secretions, excretions, non-intact skin, and mucus
membranes.
Module Review
1. Describe resource challenges rural communities face when enacting isolation and
quarantine measures.
2. Explain the advantages of typing resources according to NIMS guidance.
3. Explain how the Emergency Management Assistance Compact offers assistance
during governor-declared states of emergency.
4. Explain how the Strategic National Stockpile is activated and list the supplies
available.
5. Define syndromic surveillance and list available disease surveillance tools.
6. List resources used to implement standard precautions as a means of preventing
direct contact with body fluids, secretions, excretions, non-intact skin, and mucous
membranes.